CN106196332A - The off-premises station of air conditioner - Google Patents

Abstract

The present invention provides the off-premises station of a kind of air conditioner, and the off-premises station of the air conditioner of embodiments of the invention includes: casing, is provided with suction panel, base, is arranged at the downside of described casing, and compressor and heat exchanger, is arranged at described base；Described base includes: base body, described compressor is positioned over this base body, edge part, outside along described base body configures, and it is provided with to support the arrangement portion of described heat exchanger, and support oriented device, it is arranged at described edge part, in order to increase the area that can support described heat exchanger.

Description

The off-premises station of air conditioner

Technical field

The present invention relates to the off-premises station of a kind of air conditioner.

Background technology

Air conditioner is in order to remain optimal according to purposes, purpose by the air in regulation space The device of state.In general, above-mentioned air conditioner include compressor, condenser, expansion gear and Vaporizer, by driving compression in order to perform cold-producing medium, condensing, expand and evaporation process cold Freeze circulation, to freeze or to heat above-mentioned regulation space.

According to the place of the above-mentioned air conditioner of use, above-mentioned regulation space can be multiple space.As One example, when above-mentioned air conditioner is configured at family or office, above-mentioned regulation space can be house Or the interior space of building.On the contrary, when above-mentioned air conditioner is configured at automobile, above-mentioned regulation is empty Between can be for people take take space.

When air conditioner performs cooling operation, the outdoor heat exchanger being arranged at off-premises station performs condensation Device function, the indoor heat exchanger being arranged at indoor set performs evaporator function.Otherwise, work as air-conditioning When machine performs to heat operating, above-mentioned indoor heat exchanger performs condenser function, and above-mentioned outdoor heat is handed over Change planes execution evaporator function.

It addition, the off-premises station at air conditioner includes to be formed the base of bottom outward appearance.With outdoor Relatively, the applicant has applied for following at first document and the most patentable the base of machine.

[at first document]

1. Korean Patent grant number KR10-1401876 (grant date: on May 30th, 2015), Denomination of invention: the base assembly of the off-premises station of air conditioner

But, according to the base of the off-premises station of the air conditioner at first document, due to may on base Collecting defrosting water or rainwater etc., this occurs icing the operation to off-premises station to bring unfavorable shadow by causing Ring.

Summary of the invention

The present invention proposes to solve problem as above, it is an object of the invention to carry For the off-premises station of a kind of air conditioner, it can be smoothly discharged fluid present on off-premises station.

The off-premises station of the air conditioner of the embodiment of the present invention, comprising: casing, is provided with suction panel, Base, is arranged at the downside of described casing, and compressor and heat exchanger, is arranged at the described end Seat；Described base includes: base body, and described compressor is positioned over this base body, edge part, Outside along described base body configures, and is provided with to support the arrangement of described heat exchanger Portion, and support oriented device, be arranged at described edge part, can support described heat in order to increase The area of switch.

Further, described support oriented device includes: osculum, and it is formed at described arrangement portion, and The direction placed relative to described heat exchanger extends obliquely.

Further, described heat exchanger includes heat-exchange tube and heat-exchange fin；Described arrangement portion includes Hole rake, it specifies described osculum, and supports the bottom of described heat-exchange fin.

Further, described heat-exchange fin is positioned over the virtual line that the direction in described arrangement portion extends L1 and the angle constituted by the virtual line l2 that described hole rake extends are the first set angle.

Further, described edge part includes: edge body, and it is configured at higher than described base body Position；And blocking unit, it extends towards described arrangement portion upward from described edge body, in order to Water is prevented to be flowed into described base body from described edge part.

Further, also including boss portion, it extends towards described edge part upward from described base body.

Further, described support oriented device includes: rake, and it forms the edge in described arrangement portion In at least some of, the direction placed relative to described heat exchanger extends obliquely.

Further, described heat exchanger includes heat-exchange tube and heat-exchange fin；By described heat exchange fin Sheet is positioned over virtual line l3 and the void that extended by described rake that the direction in described arrangement portion extends The angle that the line l4 intended is constituted is the second set angle.

Further, described arrangement portion is provided with multiple；It is formed with guiding between the plurality of arrangement portion Portion, this guide part dips down towards described base body and tiltedly extends.

Further, described base body includes: osculum, its in order to by described guide part discharge from Described edge part is flowed into the fluid of described base body.

On the other hand, the off-premises station of air conditioner includes: casing, is provided with suction panel, and the end Seat, is arranged at the downside of described casing；Described base includes: base body, is provided with in order to prop up Support the first arrangement portion of compressor and for discharging the first row water hole of water, and edge part, along The outside configuration of described base body, in order to support the heat friendship with heat-exchange tube and heat-exchange fin Change planes；Described edge part includes: edge body, is positioned at the upside of described base body, the second peace Putting portion, from described edge, body protrudes upward, and support oriented device, is arranged at described Second arrangement portion, in order to increase the area that can support described heat-exchange fin.

Further, described support oriented device includes that the 3rd osculum, the 3rd osculum are formed at institute State the second arrangement portion, and the direction placed relative to described heat-exchange fin be formed obliquely, And the 3rd the direction placed of osculum and described heat-exchange fin form the first set angle.

Further, also including: second row water hole, it is formed at described edge body.

Further, also including: the 4th osculum, it is formed at described second arrangement portion, and configures At least side in described 3rd osculum.

Further, described support oriented device includes rake, and this rake is formed at described second peace Put the lateral surface in portion, and the direction placed relative to described heat-exchange fin be formed obliquely, And the direction that this rake and described heat-exchange fin are placed forms the second set angle.

Further, described second arrangement portion is provided with multiple, sets between the plurality of second arrangement portion Being equipped with guide part, this guide part dips down towards described first row water hole and tiltedly extends.

According to the present invention as above, by arranging guider at base, can make on off-premises station The fluid existed easily is discharged by osculum.

Further, described by arranging in the downside of the heat exchanger being arranged on off-premises station in order to dispose The arrangement portion of heat exchanger, and formation is arranged relative to multiple heat-exchange fins in described arrangement portion The osculum that arranges obliquely of direction, the size of osculum can not only be formed significantly, and It is able to ensure that the Area of bearing of bigger described heat-exchange fin.It is as a result, it is possible to stably support Described heat exchanger.

Further, described arrangement portion has the direction arranged relative to the plurality of heat-exchange fin and inclines The rake tiltedly extended, it is accordingly possible to ensure the Area of bearing of bigger described heat-exchange fin.

Additionally, by arranging inclined plane between described arrangement portion, it is possible to make the edge of described base Fluid present on portion is flow to base body and is easily discharged by osculum.

Further, described guider includes the blocking unit being arranged at the edge part of base, by described Blocking unit is prevented from fluid and is flowed into base body, and is directed on described edge part the row formed Water hole.

Accompanying drawing explanation

Fig. 1 is that the decomposition of the structure of the off-premises station of the air conditioner illustrating the first embodiment of the present invention is stood Body figure.

Fig. 2 is to be provided with multiple parts on the base of the off-premises station illustrating the first embodiment of the present invention The axonometric chart of situation.

Fig. 3 is to be provided with multiple parts on the base of the off-premises station illustrating the first embodiment of the present invention The plane graph of situation.

Fig. 4 is the schematic diagram of the structure of the base of the off-premises station illustrating the first embodiment of the present invention.

Fig. 5 is the schematic diagram of the primary structure of the base illustrating the first embodiment of the present invention.

Fig. 6 is the profile cut open along the I-I ' of Fig. 3.

Fig. 7 is that the upside of the base illustrating the first embodiment of the present invention is placed with heat-exchange fin The plane graph of situation.

Fig. 8 is the schematic diagram of the structure of the base of the off-premises station illustrating the second embodiment of the present invention.

Fig. 9 is that the upside of the base illustrating the second embodiment of the present invention is placed with heat-exchange fin The plane graph of situation.

Figure 10 is the profile cut open along the II-II ' of Fig. 8.

Detailed description of the invention

Referring to the drawings the specific embodiment of the present invention is illustrated.But, the skill of the present invention Art thought is not limited to proposed embodiment, understands this area of the technological thought of the present invention Technical staff can easily point out out other embodiments in the range of identical technological thought.

Fig. 1 is that the decomposition of the structure of the off-premises station of the air conditioner illustrating the first embodiment of the present invention is stood Body figure, Fig. 2 is multiple portion that is provided with on the base of the off-premises station illustrating the first embodiment of the present invention The axonometric chart of the situation of part.

With reference to Fig. 1 and Fig. 2, the off-premises station 10 of the air conditioner of the first embodiment of the present invention includes: Base 200, it forms the bottom outward appearance of off-premises station, in order to support multiple parts of configuration on off-premises station； Post lower limb (leg) 190, it is arranged at the downside of above-mentioned base 200, in order to make above-mentioned off-premises station 10 It is supported in setting place；And, casing (cabinet) 110,120,150, it is arranged at above-mentioned The upside of base 200.

Above-mentioned post lower limb 190 is arranged at two side lower parts of above-mentioned base 200, and is positioned over above-mentioned setting Place, is arranged on ground as an example.

Said machine casing 110,120,150 includes suction panel 110.Above-mentioned suction panel 110 is arranged Having multiple, multiple suction panels 110 are configured along the periphery of above-mentioned base 200.Above-mentioned many Individual suction panel 110 can be arranged to extend upward from the edge of above-mentioned base 200.

As an example, above-mentioned multiple suction panels 110 be arranged at before and after above-mentioned base 200 side and Side, left and right.Above-mentioned multiple suction panel 110 has suction grid 112, and it is in order to make outdoor air The inside of above-mentioned off-premises station 10 can be flowed into.

Extraneous air can before and after above-mentioned off-premises station 10 side or left and right sides side by above-mentioned multiple suctions Panel 110 is flowed into the inside of above-mentioned off-premises station 10.

Said machine casing 110,120,150 also includes control panel 120.Above-mentioned control panel 120 It is understood as the control chamber (not shown) in order to arrange close to the inside of off-premises station 10 and can open The door put.As an example, above-mentioned control panel 120 can be rotated and maybe can slide.

Above-mentioned control panel 120 may be disposed at and is arranged at outdoor in above-mentioned multiple suction panel 110 The side of the suction panel in the front of machine 10.

Additionally, above-mentioned control panel 120 includes: the perspective of the display of the above-mentioned control chamber of observable Window 122；And in order to optionally to open the lid component 125 of above-mentioned window 122.

Said machine casing 110,120,150 also includes bracket (bracket) 150, its in order to support on State multiple suction panel 110 and control panel 120.Above-mentioned bracket 150 is provided with multiple, and it can quilt It is set to extend upward from above-mentioned base 200.

As an example, the first bracket in multiple brackets 150 be arranged at a suction panel 110 and with Between another suction panel 110 that an above-mentioned suction panel 110 is neighbouring, in order to support an above-mentioned suction Enter panel 110 and another suction panel 110.That is, an above-mentioned suction panel 110 and another suction plane Plate 110 can be combined in the both sides of above-mentioned first bracket.

Additionally, the second bracket in above-mentioned multiple bracket 150 be arranged at a suction panel 110 and with Between the control panel 120 that an above-mentioned suction panel 110 is neighbouring, in order to support an above-mentioned suction plane Plate 110 and control panel 120.That is, an above-mentioned suction panel 110 and control panel 120 can be in conjunction with Both sides in above-mentioned second bracket.

Heat exchanger 130 can be provided with in the inside of above-mentioned off-premises station 10.Above-mentioned heat exchanger 130 Can extend along the medial surface of said machine casing 110,120,150.I other words, above-mentioned heat exchanger 130 bent repeatedly and along above-mentioned multiple suction panels 110 medial surface extend.

Above-mentioned heat exchanger 130 includes: in order to the heat-exchange tube 131 making cold-producing medium flow；And knot Together in above-mentioned heat-exchange tube 131 heat-exchange fin (fin) 133 of the heat exchange contributing to cold-producing medium. Above-mentioned heat-exchange tube 131 constitutes at least some of of refrigerant pipe 90, above-mentioned heat-exchange fin 133 In order to provide the heat-exchange surface of cold-producing medium and air.

Above-mentioned heat-exchange tube 131 is inserted in above-mentioned heat-exchange fin 133, above-mentioned heat-exchange fin 133 It is provided with multiple, and multiple heat-exchange fin 133 configures with being spaced from each other.Additionally, it is above-mentioned multiple Heat-exchange fin 133 can configure along the direction that edge part 220 described later extends.

The extraneous air flowed into by the suction grid 112 of above-mentioned multiple suction panels 110 can be passed through Above-mentioned heat exchanger 130 carries out heat exchange.

Above-mentioned off-premises station 10 also includes: in order to the blowing fan 140 making extraneous air flow into；And set It is placed in the discharge panel 142 of the side of said fan 140.Row is included at above-mentioned discharge panel 142 Going out grid 145, it is discharged to the outside of off-premises station 10 in order to make air.

Said fan 140 is configured in the top of above-mentioned off-premises station 10, above-mentioned discharge panel 142 It is arranged at the upside of said fan 140.Air through above-mentioned heat exchanger 130 can be towards upper Fang Liudong, and it is discharged to above-mentioned off-premises station 10 via said fan 140 and discharge panel 142 Outside.

Multiple parts can be provided with in the upside of above-mentioned base 200.Above-mentioned base 200 includes disposing Portion 215,225 (with reference to Fig. 4), it is in order to support above-mentioned multiple parts.

Above-mentioned multiple parts comprise the steps that to compress the compressor 51,52 of cold-producing medium；Machine oil separates Device 61,62, it is arranged at the discharge side of above-mentioned compressor 51,52, contains in order to separate in cold-producing medium Some machine oil；Gas-liquid separator 80, it is arranged at the entrance side of above-mentioned compressor 51,52, in order to Separate liquid phase refrigerant and vapor phase refrigerant is supplied to above-mentioned compressor 51,52；And, refrigeration Agent pipe 90, it is connected to above-mentioned compressor 51,52, lubricant separator 61,62 and gas-liquid separation Device 80 guides the flowing of cold-producing medium.

Above-mentioned compressor 51,52 includes the first compressor 51 and the second compressor 52.On additionally, State lubricant separator 61,62 to include: be arranged at above-mentioned first compressor 51 outlet side first Lubricant separator 61；And the second machine oil being arranged at the outlet side of above-mentioned second compressor 52 separates Device 62.

Hereinafter, referring to the drawings the structure of base is illustrated.

Fig. 3 is to be provided with multiple parts on the base of the off-premises station illustrating the first embodiment of the present invention The plane graph of situation, Fig. 4 is the knot of the base of the off-premises station illustrating the first embodiment of the present invention The schematic diagram of structure, Fig. 5 is the signal of the primary structure of the base illustrating the first embodiment of the present invention Figure.

With reference to Fig. 3 to Fig. 5, the base 200 of the off-premises station of the first embodiment of the present invention includes: the end Seat body 210, it is in order to form bottom outward appearance；And, edge part 220, it is located at above-mentioned base The outside of body 210.

Above-mentioned base 200 includes arrangement portion 215,225, and it is in order to dispose above-mentioned multiple parts extremely A few part.

Above-mentioned arrangement portion 215,225 includes: the first arrangement portion 215, and it is located at above-mentioned base body 210, in order to dispose at least one of parts in above-mentioned multiple parts；And, the second arrangement portion 225, it is located at above-mentioned edge part 220, in order to dispose the portion of the another part in above-mentioned multiple parts Part.

Specifically, above-mentioned first arrangement portion 215 can support first component, i.e. above-mentioned compressor 51, 52, lubricant separator 61,62 and gas-liquid separator 80.As an example, above-mentioned compressor 51, 52, lubricant separator 61,62 and gas-liquid separator 80 can be coupled to above-mentioned first arrangement portion 215.

Be formed with coupling aperture 218 in above-mentioned first arrangement portion 215, in order to couple above-mentioned compressor 51, 52, lubricant separator 61,62 and gas-liquid separator 80.Above-mentioned compressor 51,52, machine oil Separator 61,62 and gas-liquid separator 80 can be respectively arranged with supporting part, and it passes through coupler member It is fixed on above-mentioned coupling aperture 218.

As an example, above-mentioned supporting part includes: be respectively arranged on above-mentioned first compressor, the second compression First compression supporting part of machine 51,52, second compression supporting part 51a, 52a；It is respectively arranged on above-mentioned First lubricant separator, the first machine oil separation supporting part of the second lubricant separator 61,62, second Machine oil separation supporting part 61a, 62a；And the gas-liquid separation being located at above-mentioned gas-liquid separator 80 supports Portion 80a.

Can assemble or store fluid present on above-mentioned off-premises station 10 at above-mentioned base body 210, As an example, the defrosting water that can assemble or store heat exchanger 130 or the water (rain flowed into from outside Water etc.).Additionally, above-mentioned fluid can be by the first row water hole formed on above-mentioned base body 210 217 downsides being discharged to above-mentioned base 210.Therefore, can be by above-mentioned base body 210 or base 200 are referred to as " drain pan ".

On the other hand, above-mentioned first arrangement portion 215 be configured to from above-mentioned base body 210 towards Project above.Due to above-mentioned compressor 51,52, lubricant separator 61,62 and gas-liquid separator 80 are supported in above-mentioned first arrangement portion 215, therefore above-mentioned compressor 51,52, lubricant separator 61, 62 and the bottom of gas-liquid separator 80 be in the shape being spaced upward from above-mentioned base body 210 State.

By the structure in above-mentioned first arrangement portion 215, above-mentioned compressor 51,52, lubricant separator 61,62 and gas-liquid separator 80 etc. can not be by fluids present on above-mentioned base body 210 etc. Impact.

Above-mentioned edge part 220 extends along the peripheral of above-mentioned base body 210, and relative to above-mentioned Base body 210 forms upward ladder.That is, the upper surface of above-mentioned edge part 220 is formed at The higher position of upper surface than above-mentioned base body 210.

Be formed between above-mentioned base body 210 and edge part 220 in order to specified altitude difference convex Platform portion 219 (with reference to Fig. 5).By above-mentioned boss portion 219, above-mentioned edge part 220 is configured in Than the above-mentioned higher position of base body 210.

Additionally, above-mentioned edge part 220 can be from above-mentioned boss portion 219 towards above-mentioned base body 210 Lateral direction extend specific length.

Above-mentioned edge part 220 includes: edge body 221, and it is positioned at the upper of above-mentioned base body 210 Side；And, the second arrangement portion 225, it protrudes upward from above-mentioned edge body 221, in order to Dispose above-mentioned heat exchanger 130.

Can assemble or store fluid present on above-mentioned off-premises station 10 at above-mentioned edge body 211, make It is an example, the defrosting water that can assemble or store heat exchanger 130 or the water (rainwater flowed into from outside Deng).Owing to above-mentioned second arrangement portion 225 is entered from above-mentioned edge body 221 with being spaced upward Row arrange, the bottom of the most above-mentioned heat exchanger 130 be positioned at above-mentioned edge body 221 top and Separating with above-mentioned edge body 221, thus, above-mentioned heat exchanger 130 can not be by above-mentioned edge The impact of fluid etc. present on body 221.

Above-mentioned base 200 includes multiple osculum 217,222,227,228.Specifically, above-mentioned Multiple osculums 217,222,227,228 include: be formed at the first of above-mentioned base body 210 Osculum 217；It is formed at the second row water hole 222 of above-mentioned edge body 221；And be formed at State the three, the 4th osculums 227,228 in the second arrangement portion 225.Above-mentioned first to fourth draining Hole 217,222,227,228 can be formed at above-mentioned base body the most throughly 210, edge body 221 and the second arrangement portion 225.

Above-mentioned first to fourth osculum 217,222,227,228 can be respectively equipped with multiple, multiple Each osculum configures with being spaced from each other.

By above-mentioned base body 210, edge body 221 and the difference in height in the second arrangement portion 225, Above-mentioned 3rd osculum 227 and the 4th osculum 228 can be formed at identical height, and the above-mentioned 3rd Osculum 227 is formed at ratio higher position, above-mentioned second row water hole 222, above-mentioned second row water hole 222 are formed at than higher position, above-mentioned first row water hole 217.

The size of above-mentioned 4th osculum 228 of comparable size of above-mentioned 3rd osculum 227 is bigger. As an example, above-mentioned 3rd osculum 227 is in the substantially central portion phase in above-mentioned second arrangement portion 225 Extending obliquely for above-mentioned heat-exchange fin 133, above-mentioned 4th osculum 228 can be formed at State the both sides of the 3rd osculum 227.

Above-mentioned 3rd osculum 227 can be formed multiple with being spaced from each other, above-mentioned 4th osculum 228 Side and the opposite side of above-mentioned multiple 3rd osculum 227 can be respectively formed in.

Above-mentioned 3rd osculum 227 includes hole rake 227a, and it is relative to above-mentioned heat-exchange fin 133 direction placed straight-line extensions obliquely.Above-mentioned hole rake 227a is understood as using To specify the part in the above-mentioned second arrangement portion 225 of above-mentioned 3rd osculum 227.

That is, the direction that above-mentioned 3rd osculum 227 is extended can be prolonged with above-mentioned heat-exchange fin 133 The direction stretched intersects.

Above-mentioned base 200 i.e. base body 210 and edge part 220 play as in order to discharge defrosting The function of the drain pan of water etc..In order to improve drain function, can be formed many at above-mentioned base 200 Individual osculum.

But, in the case of forming too much osculum, particularly in above-mentioned edge part 220 shape In the case of becoming too much osculum, on the area of sustainable above-mentioned heat exchanger 130 is i.e. sustainable The second arrangement portion 225 area stating heat-exchange fin 133 can reduce, thus, it will limits heat and hands over Change planes 130 stable support, it may occur that the rigidity in above-mentioned second arrangement portion 225 dies down Problem.

Therefore, in order to keep setting face at the area supporting above-mentioned heat exchanger 130 in the present embodiment In the case of long-pending above, it is possible to easily carry out draining, make above-mentioned 3rd osculum 227 relative to The bearing of trend of above-mentioned heat-exchange fin 133 is formed obliquely.

By making above-mentioned 3rd osculum 227 extend obliquely, make above-mentioned 3rd osculum 227 Peripheral lengths is elongated, thus, can make in the whole part in above-mentioned second arrangement portion 225 or area The part or the area that support above-mentioned heat-exchange fin 133 increase.

It addition, by forming above-mentioned 4th osculum at least side of above-mentioned 3rd osculum 227 228, it is possible to improve drain function further.

Above-mentioned base 200 also includes blocking unit 250, and it specifies above-mentioned edge body 221 and the second peace Put the difference in height in portion 225, and limit fluid from above-mentioned edge body 221 flow to above-mentioned base this Body 210.

It is convex that above-mentioned blocking unit 250 specifies between above-mentioned edge body 221 and the second arrangement portion 225 Platform.Specifically, above-mentioned blocking unit 250 from above-mentioned edge body 221 towards above-mentioned second arrangement portion 225 Extend upward.The height of above-mentioned blocking unit 250 can be formed to be capable of blocking the journey of above-mentioned fluid Degree, to prevent fluid present on above-mentioned edge body 221 to be flowed into above-mentioned base body 210.

Above-mentioned boss portion 219 forms the difference in height between above-mentioned base body 210 and edge part 220, It is specifically to form the difference in height between above-mentioned base body 210 and the second arrangement portion 225.Additionally, Above-mentioned blocking unit 250 forms the difference in height between above-mentioned edge body 221 and the second arrangement portion 225. Above-mentioned boss portion 219 can be referred to as " the first boss portion ", above-mentioned blocking unit 250 is referred to as " the Two boss portion ".

The bottom of above-mentioned heat exchanger 130 is positioned over above-mentioned second arrangement portion 225, is configured at above-mentioned The top of two osculums 222 and be positioned at the position separated with above-mentioned second row water hole 222.

Above-mentioned blocking unit 250 can be in the outside in above-mentioned second row water hole 222 and above-mentioned second row water hole 222 are neighboringly arranged.As an example, above-mentioned blocking unit 250 separates with above-mentioned second row water hole 222 Predetermined distance, and can be configured to around above-mentioned second row water hole 222 at least some of.

Above-mentioned edge body 221 can there are above-mentioned heat exchanger 130 as an example produced Defrosting water or be flowed into the rainwater etc. of inside of above-mentioned off-premises station 10.Additionally, above-mentioned fluid can lead to Cross above-mentioned second row water hole 222 to discharge downward.

On the other hand, by the structure of above-mentioned blocking unit 250, above-mentioned edge body 221 exists Fluid will be flowed into above-mentioned base body 210 by restriction, but be directed to above-mentioned second row water hole 222。

Above-mentioned base body 210 has the ability of the setting for drainage sunk well.At above-mentioned edge originally When the fluid of body 221 is flowed into above-mentioned base body 210, above-mentioned base body 210 may be deposited Fluid more than above-mentioned set ability, thus cause cannot carrying out draining swimmingly.Additionally, When the fluid not being discharged persists in above-mentioned base body 210, according to outside atmosphere And it may happen that freeze.

By forming above-mentioned blocking unit 250 in the present embodiment, make present on above-mentioned edge body 221 Fluid is discharged swimmingly by above-mentioned second to the 4th osculum 222,227,228, thus Can solve the problem that the problems referred to above.

Fig. 6 is the profile cut open along the I-I ' of Fig. 3, and Fig. 7 is the first enforcement illustrating the present invention The upside of the base of example is placed with the plane graph of the situation of heat-exchange fin.

The heat exchanger 130 of the first embodiment of the present invention can be positioned over the of above-mentioned edge part 220 Two arrangement portions 225.Above-mentioned heat exchanger 130 bends repeatedly and extends along above-mentioned edge part 220, Thus, it is possible to configure face to face with the suction grid 112 of above-mentioned multiple suction panels 110.

Specifically, on above-mentioned heat exchanger 130 arrange multiple heat-exchange fins 133 can support in Above above-mentioned second arrangement portion 225.Above-mentioned heat-exchange tube 131 can curved with heat exchanger 130 The shape of folding bends composition accordingly, and above-mentioned multiple heat-exchange fins 133 are spaced from each other and are incorporated into Above-mentioned heat-exchange tube 131.

Above-mentioned heat-exchange fin 133 is positioned over the void that the direction in above-mentioned second arrangement portion 225 extends The line l1 intended and the angle constituted by the virtual line l2 that above-mentioned hole rake 227a extends are for setting Determine angle, θ 1.Above-mentioned set angle θ 1 may be set to the value more than 0 °.

On the other hand, above-mentioned first to fourth osculum 217,222,227,228 includes that lower section is led To portion 222a, it the most obliquely or forms camber line ground (round) extension, enables fluid to Enough flow the most downward.

Above-mentioned post lower limb 190 is incorporated into the downside of above-mentioned edge part 220.Additionally, at above-mentioned post lower limb 190 Being formed with post lower limb osculum 195, it is in order to fluid that will discharge from above-mentioned edge part 220 downward Guide.Above-mentioned post lower limb osculum 195 can be formed at the position corresponding with above-mentioned second row water hole 222.

Fig. 8 is the schematic diagram of the structure of the base of the off-premises station illustrating the second embodiment of the present invention, Fig. 9 is the situation that the upside of the base illustrating the second embodiment of the present invention is placed with heat-exchange fin Plane graph, Figure 10 is the profile cut open along the II-II ' of Fig. 8.

With reference to Fig. 8 to Figure 10, the base 300 of the second embodiment of the present invention includes: base body 310, it forms bottom outward appearance；Edge part 320, it is located at the outside of above-mentioned base body 310, And it is configured around above-mentioned base body 310；And, boss portion 319, it is above-mentioned in order to specify Base body 310 and the difference in height of edge part 320.

Above-mentioned boss portion 319 extends upward from the periphery of above-mentioned base body 310, above-mentioned limit Edge 320 extends towards lateral direction from above-mentioned boss portion 319.By structure as above, on State edge part 320 to be configured in than the above-mentioned higher position of base body 310.

Above-mentioned base 300 includes multiple arrangement portion 315,325, and it sets on off-premises station 10 in order to dispose The multiple parts put.

Specifically, above-mentioned multiple arrangement portion 315,325 includes: the first arrangement portion 315, it is from upper State base body 310 to protrude upward；And, the second arrangement portion 325, it is from above-mentioned edge part 320 protrude upward.Above-mentioned first arrangement portion, the second arrangement portion 315,325 can be respectively equipped with Multiple.

In above-mentioned first arrangement portion 315 sustainable have above-mentioned compressor 51,52, lubricant separator 61, 62 and gas-liquid separator 80 etc., there is above-mentioned heat exchanger above-mentioned second arrangement portion 325 is sustainable 130。

Being formed with multiple osculum 317 at above-mentioned base body 310, it is in order to make above-mentioned base body The fluid stored on 310 is discharged downward.

Above-mentioned edge part 320 includes: edge body 321, it is configured at than above-mentioned base body 310 Higher position；And, the second arrangement portion 325, it is the most convex from above-mentioned edge body 321 Go out, in order to dispose above-mentioned heat exchanger 130.

Above-mentioned second arrangement portion 325 can be provided with multiple with being spaced from each other.Additionally, above-mentioned edge is originally Body 321 includes guide part 329, and it is formed between above-mentioned multiple second arrangement portion 325, in order to lead It flow to above-mentioned base body 310 to defrosting water or other fluid.

The direction that above-mentioned second arrangement portion 325 is placed relative to above-mentioned heat exchanger 130 is obliquely Extend.Specifically, above-mentioned second arrangement portion 325 includes rake 325a, and it is relative to above-mentioned heat The direction that the heat-exchange fin 133 of switch 130 is placed extends obliquely.Above-mentioned rake 325a Form the edge in above-mentioned second arrangement portion 325 or at least some of of lateral surface.

Above-mentioned heat-exchange fin 133 is positioned over the void that the direction in above-mentioned second arrangement portion 325 extends The line l3 intended and the angle constituted by the virtual line l4 that above-mentioned rake 325a extends are for setting Angle, θ 2.Above-mentioned set angle θ 2 may be set to the value more than 0 °.

By arranging above-mentioned rake 325a in above-mentioned second arrangement portion 325, above-mentioned second peace can be made Put and the whole part in portion 325 or area support the part of above-mentioned heat-exchange fin 133 or area increases Greatly.

Above-mentioned guide part 329 extends the most obliquely towards horizontal plane or base body 310.On Stating guide part 329 relative to the angle that above-mentioned horizontal plane or base body 310 are constituted is set angle Degree θ 3.That is, above-mentioned guide part 329 is understood to be on above-mentioned edge body 321 inclination formed Face.

Above-mentioned guide part 329 can be formed at multiple protruded upward from above-mentioned edge part 320 Between two arrangement portions 325.Above-mentioned second arrangement portion 325 is to dispose above-mentioned heat exchanger 130 Part, it has the most parallel face.

As it has been described above, by arranging at above-mentioned edge part 320 with the side towards above-mentioned base body 310 Downwards to the guide part 329 tilted, fluid present on above-mentioned edge part 320 can be made to be flowed into above-mentioned Base body 310, as an example, makes to be flowed at above-mentioned heat exchanger 130 produced defrosting water Above-mentioned base body 310.

Additionally, be flowed into the direct fluid of above-mentioned base body 310 to above-mentioned base body 310 Osculum 317 such that it is able to be easily discharged to the lower section of above-mentioned base 300.That is, above-mentioned guiding Portion 329 is disposed towards the osculum 317 of above-mentioned base body 310 and tilts, and is understood to be It it is the structure of the draining in order to pilot fluid.

In order to be distinguish between illustrate, can be by the set angle θ 1 of explanation in embodiment before It is referred to as " the first set angle ", above-mentioned set angle θ 2 is referred to as " the second set angle ", will Above-mentioned set angle θ 3 is referred to as " the 3rd set angle ".

Additionally, due to the 3rd osculum 227 with rake 227a of explanation in first embodiment And second the second arrangement portion 325 with rake 325a of explanation in embodiment be to be used by increase The knot of heat exchanger 130 can be stably supported in the part or area supporting heat exchanger 130 Structure, therefore, can be referred to as these components " support oriented device ".

Claims (16)

1. an off-premises station for air conditioner, comprising:

Casing, is provided with suction panel,

Base, is arranged at the downside of described casing, and

Compressor and heat exchanger, be arranged at described base；

Described base includes:

Base body, described compressor is positioned over this base body,

Edge part, the outside along described base body configures, and is provided with to support described heat The arrangement portion of switch, and

Support oriented device, is arranged at described edge part, can support described heat exchange in order to increase The area of machine.

The off-premises station of air conditioner the most according to claim 1, wherein,

Described support oriented device includes:

Osculum, it is formed at described arrangement portion, and the side placed relative to described heat exchanger To extending obliquely.

The off-premises station of air conditioner the most according to claim 2, wherein,

Described heat exchanger includes heat-exchange tube and heat-exchange fin；

Described arrangement portion includes hole rake, and it specifies described osculum, and supports described heat friendship Change the bottom of fin.

The off-premises station of air conditioner the most according to claim 3, wherein,

Described heat-exchange fin is positioned over the virtual line (l1) that the direction in described arrangement portion extends It is the first set angle with the angle that the virtual line (l2) that described hole rake extends is constituted.

The off-premises station of air conditioner the most according to claim 1, wherein,

Described edge part includes:

Edge body, it is configured at the position higher than described base body；And

Blocking unit, it extends towards described arrangement portion upward from described edge body, in order to prevent water It is flowed into described base body from described edge part.

The off-premises station of air conditioner the most according to claim 1, it also includes:

Boss portion, it extends towards described edge part upward from described base body.

The off-premises station of air conditioner the most according to claim 1, wherein,

Described support oriented device includes:

Rake, its formed described arrangement portion edge at least some of, relative to described heat The direction that switch is placed extends obliquely.

The off-premises station of air conditioner the most according to claim 7, wherein,

Described heat exchanger includes heat-exchange tube and heat-exchange fin；

Described heat-exchange fin is positioned over the virtual line (l3) that the direction in described arrangement portion extends The angle constituted with the virtual line (l4) extended by described rake is the second set angle.

The off-premises station of air conditioner the most according to claim 1, wherein,

Described arrangement portion is provided with multiple；

Between the plurality of arrangement portion, be formed with guide part, this guide part towards described base body to Under extend obliquely.

The off-premises station of air conditioner the most according to claim 9, wherein,

Described base body includes:

Osculum, it is flowed into described base in order to be discharged by described guide part from described edge part The fluid of body.

The off-premises station of 11. 1 kinds of air conditioners, comprising:

Casing, is provided with suction panel, and

Base, is arranged at the downside of described casing；

Described base includes:

Base body, is provided with to support the first arrangement portion of compressor and for discharging the of water One osculum, and

Edge part, along described base body outside configure, in order to support have heat-exchange tube and The heat exchanger of heat-exchange fin；

Described edge part includes:

Edge body, is positioned at the upside of described base body,

Second arrangement portion, from described edge, body protrudes upward, and

3rd osculum, is formed at described second arrangement portion, and relative to described heat-exchange fin The direction placed is formed obliquely, and the 3rd osculum and described heat-exchange fin are placed Direction forms the first set angle.

The off-premises station of 12. air conditioners according to claim 11, it also includes:

Second row water hole, it is formed at described edge body.

The off-premises station of 13. air conditioners according to claim 11, it also includes:

4th osculum, it is formed at described second arrangement portion, and is configured at described 3rd draining At least side in hole.

The off-premises station of 14. air conditioners according to claim 11, wherein,

Described edge part also includes:

Blocking unit, it is in order to specify between described edge body and described second arrangement portion (225) Difference in height, is used for limiting fluid from described edge bulk flow to described base body.

The off-premises station of 15. 1 kinds of air conditioners, comprising:

Casing, and

Base, is arranged at the downside of described casing；

Described base includes:

Base body, is provided with to support the first arrangement portion of compressor, and

Edge part, along described base body outside configure, in order to support have heat-exchange tube and The heat exchanger of heat-exchange fin；

Described edge part includes:

Edge body, is positioned at the upside of described base body, and

Second arrangement portion, from described edge, body protrudes upward；

Lateral surface in described second arrangement portion is formed with rake, and this rake is relative to described warm The direction that exchange fin is placed is formed obliquely, and this rake is put with described heat-exchange fin The direction put forms the second set angle.

The off-premises station of 16. 1 kinds of air conditioners, comprising:

Casing, and

Base, is arranged at the downside of described casing；

Described base includes:

Base body, is provided with to support the first arrangement portion of compressor and for discharging the of water One osculum, and

Edge part, along described base body outside configure, in order to support have heat-exchange tube and The heat exchanger of heat-exchange fin；

Described edge part includes:

Edge body, is positioned at the upside of described base body, and

Second arrangement portion, from described edge, body protrudes upward, and is provided with multiple；

Being provided with guide part between the plurality of second arrangement portion, this guide part is towards described first row Water hole dips down and tiltedly extends.